KR101042543B1 - Waste water purifing apparatus using microorganism - Google Patents

Abstract

PURPOSE: A waste water purifying apparatus using microorganism is provided to reuse purified water by filling wood chips in which aerobic bacteria and anaerobic bacteria are easily parasitized in a first reacting bath and biologically decomposing wasted water in the first reacting bath. CONSTITUTION: A drum screen bath(10-1), a second water amount controlling bath(20-1), a third reacting bath(30-1), a fourth reacting bath(40-1), and a sterilizing bath(50-1) are prepared. The drum screen bath receives sewage and eliminates solid materials and suspended materials. The second water amount controlling bath maintains the amount of sewage through the drum screen bath. The third reacting bath treats wood chip using far infrared ray. The sewage through the second water amount controlling bath is treated with aerobic bacteria and anaerobic bacteria using the wood chip with plenty of pores. The fourth reacting bath is filled with activated charcoal and secondarily purifies the sewage from the third reacting bath. The sterilizing bath sterilizes the sewage from the fourth reacting bath.

Description

Wastewater purification device utilizing microorganisms {WASTE WATER PURIFING APPARATUS USING MICROORGANISM}

The present invention relates to a wastewater purification apparatus, and more specifically, to increase the porous number of conifers, through the far-infrared treated wood chips, while improving the purification efficiency of the wastewater without producing sludge in the wastewater treatment and at the same time manufacturing cost The present invention relates to a wastewater purification apparatus utilizing microorganisms that can reduce energy consumption.

Generally, wood sawdust has been used as a fungus for fermenting filth in livestock fields, but pine trees with germicidal components are not suitable, whereas saline and oak trees such as cedar and oak, which have a large number of porous materials, are suitable as a fungus. It is known, the applicant has been registered in the Republic of Korea Patent No. 0429759 (hereinafter referred to as "registered patent 1") by developing a method for increasing the porous number of such conifers.

In the field of wastewater purification, various things mainly used in water treatment have been developed, and most of them have been made of synthetic resins, but the applicant has dramatically increased the number of pores by using far-infrared rays as in Patent No. 1. The functional wood chips were developed, and the porosity of these wood chips was found to be uniformly arranged in size of about 20㎛ and the surface area was 10m ² / g.

If the treated water is naturally dropped from the top while forcibly injecting air into the reaction tank while filling the wood chips with a predetermined size and having a height of 1500 to 4000 mm, the porous wood chips and the treated water come into contact with each other and preferentially separate the solid solution. As the aerobic and anaerobic bacteria, the redox reaction is continuously repeated, causing biodegradation.

By the way, in the conventional wastewater treatment method, the active sludge method for treating the wastewater in most water is a representative reason, and thus the sludge, which is a secondary pollutant, is inevitably generated. Is trying to overcome the problems of the existing wastewater treatment by using the wood chips described.

The present invention has been made to solve the above problems of the prior art, through the far-infrared-treated wood chips to increase the number of porous, it is possible to prevent sludge generation during wastewater treatment, improve wastewater purification efficiency, reduce production costs, etc. The purpose is to provide a waste water purification apparatus utilizing microorganisms.

In order to achieve the above object, the present invention, the first collection tank for receiving waste water discharged from the flush toilet; An anaerobic tank for transporting waste water in the first water collection tank to remove phosphorus and organic matter contained therein; An aeration tank filled with minerals that circulate wastewater transported from the anaerobic tank to electrolysis and its anaerobic tank and emit far infrared rays; A first flow rate adjustment tank for maintaining the wastewater transported through the aeration tank at a predetermined level; The first reaction tank including a second sump which purifies contaminated water through the far-infrared treatment and increases the porous number of wastewater through the first flow adjusting tank into aerobic and anaerobic bacteria, and receives the purified water. ; A second reaction tank filled with activated carbon for secondary purification by receiving water in the second water collecting tank and including a third water collecting tank containing the purified water; And a storage tank for storing and ultraviolet sterilizing the water supplied from the third collection tank and supplying the water stored in the flush toilet.

In addition, the present invention, the drum screen tank for removing the solids and suspended solids contained therein by introducing the sewage with the drum screen and SS remover (Suspended Solid); A second flow rate adjustment tank for maintaining the sewage carried through the drum screen tank at a predetermined level; A third reactor for primary purification of sewage, which has undergone a flow rate adjustment tank, through a wood chip having increased porous number by treating the conifers with aerobic and anaerobic bacteria; A fourth reactor filled with activated carbon for secondary purification by receiving water in the third reactor; And a sterilization tank for storing and sterilizing water supplied from the fourth reaction tank.

In addition, the present invention includes a third flow rate adjustment tank for receiving waste water treated first and second in an existing wastewater treatment facility or an integrated purification tank such as an organic wastewater treatment plant; A fifth reaction tank including a fourth collection tank for purifying contaminated water through far-infrared treatment of wood and increasing the number of porous water through the third flow adjustment tank to aerobic and anaerobic bacteria and accommodating the purified water; And a sixth reaction tank filled with activated carbon for receiving and purifying water in the fourth sump and including a fifth sump for accommodating the purified water.

As described above, the wastewater purification apparatus using the microorganism according to the present invention is purified by continuously biodegrading the wastewater discharged from the flush toilet in a first reactor filled with wood chips that can easily parasitic aerobic bacteria and anaerobic bacteria It allows for the treatment of circulating wastewater of unpaid, undischarged, non-discharged wastewater which can be used and reused without releasing the purified clean water.

In addition, the wood chips described above can be used to clean up sewage, but the sludge is not generated while reducing the construction cost of sewage treatment facilities.

In addition, in a treatment facility to which various conventional wastewater purification methods are applicable, when the wastewater treated as the first and second treatment is more than the discharge standard value, the wastewater can be reprocessed below the discharge standard value.

1 is a view schematically showing a first embodiment of a wastewater purification apparatus utilizing microorganisms according to the present invention.
Figure 2 is a block diagram showing a second embodiment of the wastewater purification apparatus utilizing the microorganism according to the present invention.
Figure 3 is a side cross-sectional view schematically showing a third reaction tank of the second embodiment of the wastewater purification apparatus using the microorganism according to the present invention.
Figure 4 is a plan view schematically showing a third reactor of the second embodiment of the wastewater purification apparatus using the microorganism according to the present invention.
Figure 5 is a perspective view showing the discharge pipe used in the third reaction tank of the second embodiment of the wastewater purification apparatus utilizing the microorganism according to the present invention.
Figure 6 schematically shows a third embodiment of the wastewater purification apparatus utilizing the microorganism according to the present invention.

Hereinafter, a wastewater purification apparatus utilizing microorganisms according to the present invention will be described with reference to the drawings.

1 is a view schematically showing a first embodiment of a wastewater purification apparatus utilizing microorganisms according to the present invention.

The first embodiment of the wastewater purification apparatus using the microorganism according to the present invention is a first water tank (10) for receiving the waste water discharged from the flush toilet (1), and the anaerobic tank for transporting the waste water in the first water tank (10) ( 20) and aeration tank 30 filled with minerals emitting circulating circulating to the anaerobic tank side and electrolyzed and the anaerobic tank side, and the waste water transported through the aeration tank 30 to maintain a constant level The first flow control tank 40, the first reaction tank 50 for firstly purifying the waste water passed through the first flow control tank 40 through the wood chips with increased porous number, and the water in the second water collecting tank 51 Water for storing and UV sterilizing the water supplied from the second reactor 60 and the third collection tank 61 filled with activated carbon for secondary purification upon receiving the water and supplying the water stored to the flush toilet 1 side. It consists of a tank 70.

The first sump (10) is a space for directly storing the waste water discharged from the flush toilet (1), the waste water is transferred to the anaerobic tank (20) through a pump, while waste water is generated in large quantities as in public toilets Where possible, a secondary tank (not shown) may be connected to the first water collecting tank 10 to buffer the amount of wastewater discharged from the flush toilet 1.

The anaerobic tank 20 purifies the wastewater transported from the first collection tank 10 in an anaerobic atmosphere to remove phosphorus and organic matter contained therein, and as in the aeration tank 30 described in detail below, the wastewater is equipped with an electrolyzer. Can improve the resolution.

The aeration tank 30 electrolyzes the wastewater transported from the anaerobic tank 20 through an electrolysis machine, and at the same time increases the purification efficiency of the wastewater through minerals having high far-infrared emissivity such as mica, which is specifically applied to the wastewater. The power and far-infrared rays stimulate the anaerobic and aerobic microorganisms to activate microorganisms, activate the water molecules of the wastewater, which are multi-molecules to form clusters, in a monomolecular state, and ionized contaminants in the wastewater It acts to increase the decomposition efficiency by allowing the redox reaction to the positive electrode.

In particular, when the DC 5V-24V voltage and the current of 1-2A are applied to the aeration tank 30, the resolution of the waste water is 20-30 when the DC 5V-24V voltage and the current of 1-2A are applied to the anaerobic tank 20. It was confirmed experimentally that the% improvement.

For reference, the aeration tank 30 is provided with a conventional air supply means for injecting air, a motor pump for forcibly circulating the waste water in the aeration tank 30 and the anaerobic tank 20, an air pump and the like.

The first flow rate adjustment tank 40 functions to transfer the waste water therein to the next first reaction tank 50 through a pumping means so as to maintain the waste water transported through the aeration tank 30 at a predetermined level as in the related art. .

The first reactor (50) is the wastewater that passed through the first flow control tank 40 through the wood chip which increased the number of porous by far-infrared treatment of conifers as in the applicant's registration 1 of the applicant as primary aerobic bacteria and anaerobic bacteria The water tank has a structure including a second water tank 51 for purifying and receiving the purified water, and the second water tank 51 is isolated by the perforated panel to the lower portion, and water falling freely falls into the second water tank ( 51) and is transferred to the second reactor 60 through the pumping means.

Here, the coniferous chip or wood chip is processed by coniferous trees such as cedar or oak having a diameter of about 2 to 10 mm, and the porous surface is actively contacted with air, so that aerobic microbial growth is actively performed and porous. Because it is difficult to contact with the air inside the inside of the anaerobic microorganism is proliferated actively, so that the function of the aerobic and anaerobic decomposition of the waste water is activated at the same time.

The second reaction tank 60 is filled with activated carbon for secondary purification by receiving water in the second water collecting tank 51, and has a structure including a third water collecting tank 61 containing the purified water. As in the first reaction tank 50, the third collecting tank 61 is isolated by the perforated panel to the lower portion, and the free-falling water is collected by the third collecting tank 61 and transferred to the storage tank 70 through the pumping means. do.

Here, the activated carbon adsorbs the odor generated in the water passed through the first reaction tank 50, and the dye, residual organic and inorganic components, etc., which are not purified in the first reaction tank 60, are finally adsorbed. To supply recyclable cleaning water.

The water storage tank 70 is provided with an ultraviolet lamp inside to sterilize the water supplied through the third collection tank 61 and then supply it to the flush toilet 1.

According to the first embodiment of the present invention, even if the waste water is continuously introduced and the amount of water is increased, the waste water does not need to be separately discharged during normal use because it is evaporated in the process of circulating and aeration for 24 hours. In this rapidly blowing situation, it can be buffered through the auxiliary tank, so that the toilet water can be recycled with clean water of BOD 10ppm or less in a circulatory system with no discharge and no discharge, and the waste water can be recycled at home. By greatly saving the water used, it is possible to solve the problem of the shortage of water worldwide.

Figure 2 is a block diagram showing a second embodiment of the wastewater purification apparatus utilizing the microorganism according to the present invention.

The second embodiment of the wastewater purification apparatus using the microorganism according to the present invention is a drum screen tank (10-1) for inflow of sewage to remove the solids and suspended solids contained therein with a drum screen and an SS remover (Suspended Solid) and , The second flow rate adjustment tank 20-1 for maintaining the sewage carried through the drum screen tank 10-1 at a predetermined level, and the flow rate adjustment tank 20-1 through the wood chips having increased the number of coniferous chips or porous materials. A third reactor 30-1 for purifying the sewage that has passed through, a fourth reactor 40-1 filled with activated carbon for purifying water supplied in the third reactor 30-1, and a fourth reactor ( And a sterilization tank 50-1 for storing and sterilizing the water supplied from 40-1).

The drum screen tank (10-1) is to remove the foreign matter such as solids, suspended solids from the sewage prior to the conventional drum screen and SS remover and then transfer to the second flow control tank (20-1).

The second flow rate adjusting tank 20-1 functions to transfer the sewage conveyed through the drum screen tank 10-1 to the next third reactor 30-1 through pumping means to maintain a predetermined level. .

3 and 4 are a side cross-sectional view and a plan view schematically showing a third reaction tank of the second embodiment of the wastewater purification apparatus using microorganisms according to the present invention, respectively.

The third reactor (30-1) is the aerobic bacteria and anaerobic bacteria sewage through the flow control tank (20-1) through a wood chip that increases the number of porous by far-infrared treatment of conifers such as chipwood chips, cedar, oak, etc. In order to purify the primary, specifically looking at its structure, the third reaction tank (30-1), which is placed in the basement by pouring concrete for sewage treatment is formed so that the lower surface is inclined toward one side so that the sewage flows in one direction On the other hand, the diffuser (31-1) for distributing and supplying air to the sewage, the sewage transport pipe (32-1) in which the sewage flows, and the discharge pipe (33-1) provided at the end of the sewage transport pipe (32-1) And a space formed so as to discharge water flowing into the space between the porous plate 34-1 and the lower surface of the porous plate 34-1 and the lower surface of the third reactor 30-1 which are disposed at a predetermined interval from the lower surface. Conventional air provided with a discharge pump (35-1) Air and sewage are introduced into the third reactor 30-1 through the diffuser 31-1, which is delivered to the feeder and delivers oxygen, and the sewage transport pipe 32-1 and the discharge pipe 33-1 into which the sewage flows. Will be supplied.

5 is a perspective view showing a discharge pipe used in the third reaction tank of the second embodiment of the wastewater purification apparatus using the microorganism according to the present invention.

Looking at an example of the structure of the discharge pipe (33-1) for injecting while mixing the sewage uniformly, the discharge pipe (33-1) is a cylindrical body portion 33- is formed with a plurality of injection holes perforated inside the outer peripheral surface 11) and the cover 33-12 for sealing the upper portion of the body portion 33-11, and the sewage is evenly mixed while colliding with the inner surface of the body portion 33-11 so that the injection hole and the body portion ( 33-11) is diffused through the open bottom surface.

Like the second reactor 60, the fourth reactor 40-1 receives activated carbon for activating water molecules therein to improve resolution, and is supplied with water in the third reactor 30-1 to provide residual pigment. Secondary purification by adsorption of organic and inorganic components, odors and the like.

The sterilization tank 50-1 stores and sterilizes the water supplied from the fourth reaction tank 40-1, and then discharges the discharged water.

As a result of the sewage treatment by applying the second embodiment, when the BOD concentration of the influent water was 200 ppm, it was confirmed that the BDO concentration fell below 10 ppm, and more specific experimental results are shown in Table 1 below. Is the same as

Raw water (ppm) Treated water (ppm) Removal rate (%) Biochemical Oxygen Demand (BOD) 200 8 96 Chemical Oxygen Demand (COD) 100 5 95 Total Nitrogen (T-N) 20 4 80 Total Phosphrus (T-P) 8 2 75 SS (Suspended Solid) 60 <1 99

According to the second embodiment of the present invention, compared to the conventional sewage treatment plant without generating sludge, it is very simple, easy to manage, and can greatly reduce the initial investment and maintenance costs, In this case, the water content is 140% and can be used semi-permanently, so adding about 10% per year can maintain the purification efficiency continuously.

6 is a view schematically showing a third embodiment of the wastewater purification apparatus using the microorganism according to the present invention.

The third embodiment of the wastewater purification apparatus using the microorganism according to the present invention is a third flow rate adjustment tank (10-2) that accommodates the first and second treated wastewater in the existing facilities, such as organic wastewater treatment plant, activated sludge septic tank And a fifth reactor 20-2 including a fourth collecting tank 21-2 for purifying the wastewater which has passed through the third flow adjusting tank 10-2 through the chip leaf chips or the wood chips having increased porous number. And a sixth reaction tank 30-2 filled with activated carbon for purifying water supplied in the fourth collecting tank 21-2.

Like the first and second flow control tanks (40, 20-1), the third flow control tank (10-2) is the next fifth reaction tank through the pumping means to maintain the sewage conveyed through the existing facility at a predetermined level ( 20-2) to transfer.

The fifth reactor 20-2 is aerobic bacteria and anaerobic bacteria through the third flow control tank (10-2) through the wood chip which increased the number of porous by far-infrared treatment of chip leaves or conifers as described The water tank has a structure including a fourth water tank 21-2 for purifying the water and accommodating the purified water. Collected by the fourth collection tank (21-2) is transferred to the sixth reaction tank (30-2) through a variety of conventional pumping means, and equipped with a blower (Blower) (21-2) to smoothly supply oxygen to aerobic bacteria do.

The sixth reactor (30-2) is a structure that is filled with activated carbon for supplying and purifying the water in the fourth collection tank (21-2) and a fifth collection tank (31-2) for receiving the purified water As shown in the drawing, the fifth collecting tank 31-2 is separated by the perforated panel to the lower portion, and the water falling by free fall is collected into the fifth collecting tank 21-2 and then discharged.

The treatment capacity of the combined septic tank to purify all existing domestic wastewater is regulated to discharge the wastewater with 200ppm BOD concentration and 200L per person discharge per day with 90% BOD removal rate or 20ppm of discharged water, The BOD concentration of domestic wastewater generated by diversification and water saving in washrooms far exceeds 200 ppm, and the BOD of treated water discharged from the conventional septic tank shows a high value of 20 ppm or more. As it has a serious impact on the water quality of lakes, lakes, seas, etc., a method for solving such a problem should be prepared. The third embodiment of the present invention is applied to a conventional treatment facility and a merger and purification tank. Its simple structure makes it possible to purify wastewater to less than 10 ppm of BOD and does not generate sludge. It is.

Claims (6)

delete delete A drum screen tank (10-1) for introducing the sewage to remove the solids and suspended matter contained therein with a drum screen and an SS remover (Suspended Solid) 10-1a;
A second flow rate adjustment tank 20-1 for maintaining the sewage carried through the drum screen tank 10-1 at a predetermined level;
A third reactor (30-1) for firstly purifying sewage through the flow control tank (20-1) with aerobic bacteria and anaerobic bacteria through wood chips having increased porous number by treating coniferous chips or conifers with far infrared rays;
A fourth reactor (40-1) filled with activated carbon for secondary purification by receiving water in the third reactor (30-1);
Consists of a sterilization tank (50-1) for storing and sterilizing the water supplied from the fourth reaction tank (40-1),
The third reactor (30-1) has a lower surface is formed to be inclined to one side, the diffuser (31-1) for distributing and supplying air to the sewage, the sewage transport pipe (32-1) for introducing the sewage, and the A discharge pipe 33-1 provided at the end of the sewage transport pipe 32-1, a porous plate 34-1 disposed at a predetermined distance from the lower surface, the porous plate 34-1, and the third reactor 30-. 1) Waste water purification apparatus utilizing microorganisms, characterized in that it comprises a discharge pump (35-1) is installed in the space formed to discharge the water flowing into the space between the lower surface. The method according to claim 3,
The discharge pipe 33-1 has a cylindrical body portion 33-11 having a plurality of injection holes formed therein and having a plurality of injection holes along the outer circumferential surface thereof, and a cover 33-12 for sealing an upper portion of the body portion 33-11. Waste water purification apparatus utilizing microorganisms characterized in that consisting of. delete delete

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